CN217577645U - Deviation correcting system is rolled up to many receipts roll - Google Patents

Abstract

The utility model discloses a deviation correcting system is rolled up in many materials roll-up, by the mechanism of rectifying, the position adjustment subassembly of rectifying and the detection mechanism that rectifies are constituteed, the mechanism of rectifying includes first subassembly of rectifying, second rectifying and first sliding seat, first sliding seat activity sets up on the position adjustment subassembly of rectifying, first subassembly of rectifying, the second rectifying and controlling the relative setting of subassembly along pole piece transmission path on first sliding seat, the detection mechanism of rectifying is located one side of first subassembly and the second rectifying and rectifying subassembly pole piece output, the detection mechanism of rectifying includes first detection subassembly and the second detection subassembly of rectifying. The utility model solves the problem of multi-roll rolling alignment degree, in particular to the problem of multi-roll rolling aiming at the long path; the method adopts servo regulation of a deviation rectification reference to form a deviation rectification structure, and a detection structure intelligently performs closed-loop deviation rectification; aiming at multi-roll winding, the position of the deviation rectifying component can be adjusted by controlling the deviation rectifying position adjusting component through a servo so as to adapt to different widths.

Description

Deviation correcting system is rolled up to many receipts roll

Technical Field

The utility model relates to a many materials roll-up technical field that rectifies, concretely relates to many materials roll-up deviation correcting system.

Background

For winding of multiple wound pole pieces of lithium battery equipment, a deviation rectifying assembly is not adopted in the prior art, and the winding route is longer, so that the winding material roll alignment degree is influenced; even if there is the multiple-pole-piece deviation correction, generally adopt the manual regulation position mode of rectifying, when unreeling the pole piece width and changing, the rolling position control of rectifying troublesome poeration, the precision can't guarantee.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, provides a multi-material winding and rectifying system,

the technical scheme of the utility model as follows:

the utility model provides a deviation rectifying system is rolled up to many materials roll-up, this system comprises deviation rectifying mechanism, the position adjustment subassembly of rectifying and the detection mechanism that rectifies, deviation rectifying mechanism includes first subassembly, the second subassembly and the first sliding seat of rectifying, first sliding seat activity sets up on the position adjustment subassembly of rectifying, first subassembly, the second subassembly of rectifying is relative to be set up on first sliding seat about along pole piece transmission path, deviation rectifying detection mechanism is located one side of first subassembly and the second subassembly pole piece output of rectifying, deviation rectifying detection mechanism includes first guide rail, first motor, second motor, first lead screw, second lead screw, first detection component and the second detection component of rectifying, relative activity sets up on first guide rail about first detection component, the second detection component of rectifying corresponds respectively first subassembly and the second subassembly of rectifying, the one end that first motor is located first guide rail is connected with first detection component of rectifying through first lead screw, the other end that the second motor is located first guide rail is connected with the second detection component of rectifying through the second lead screw.

Furthermore, the deviation correcting position adjusting assembly comprises a first support frame, and a third motor, a third screw rod and a second guide rail which are arranged on the first support frame, wherein the first sliding seat is movably arranged on the second guide rail, and the third motor is connected with the first sliding seat through the third screw rod.

Furthermore, the first deviation rectifying assembly comprises a first deviation rectifying roller, a second support frame and a first deviation rectifying motor, the first deviation rectifying roller and the second deviation rectifying roller are arranged on the second support frame along the front and the back of the pole piece transmission path, and the second support frame is arranged on the first sliding seat through the first deviation rectifying motor.

Furthermore, the second deviation rectifying assembly comprises a third deviation rectifying roller, a fourth deviation rectifying roller, a third supporting frame and a second deviation rectifying motor, the third deviation rectifying roller and the fourth deviation rectifying roller are arranged on the third supporting frame in the front and at the back along the pole piece transmission path, and the third supporting frame is arranged on the first sliding seat through the second deviation rectifying motor.

Furthermore, the first deviation rectification detection assembly comprises a second sliding seat, a first inductor and a second inductor, the second sliding seat is movably arranged on the first guide rail, and the first inductor and the second inductor are oppositely arranged on the second sliding seat from left to right.

Furthermore, the first deviation-rectifying detection assembly further comprises a first inductor adjusting structure arranged on the second sliding seat, the first inductor adjusting structure comprises a third guide rail, a third support frame, a first adjusting rod, a first adjusting block and a second adjusting block, the first inductor and the second inductor are movably arranged on the third guide rail respectively through the left side and the right side of the first inductor support and the second inductor support, the third support frame is located on one side of the third guide rail, the first adjusting rod is arranged on the third support frame, the first adjusting block and the second adjusting block are movably arranged on the first adjusting rod, the first adjusting block is connected with the first inductor support, and the second adjusting block is connected with the second inductor support.

Furthermore, the second deviation rectification detection assembly comprises a third sliding seat, a third inductor and a fourth inductor, the third sliding seat is movably arranged on the first guide rail, and the third inductor and the fourth inductor are oppositely arranged on the third sliding seat from left to right.

Furthermore, the second deviation rectification detection assembly further comprises a second inductor adjusting structure arranged on a third sliding seat, the second inductor adjusting structure comprises a fourth guide rail, a fourth support frame, a second adjusting rod, a third adjusting block and a fourth adjusting block, the third inductor and the fourth inductor are respectively movably arranged on the fourth guide rail in a left-right mode through a third inductor support and a fourth inductor support, the fourth support frame is located on one side of the fourth guide rail, the second adjusting rod is arranged on the fourth support frame, the second adjusting rod is movably provided with the third adjusting block and the fourth adjusting block, the third adjusting block is connected with the third inductor support, and the fourth adjusting block is connected with the fourth inductor support.

Compared with the prior art, the beneficial effects of the utility model reside in that:

(1) The system solves the problem of multi-roll winding alignment degree, in particular to the problem of multi-roll winding with long path;

(2) The system adopts a servo-adjusting deviation-rectifying reference to form a deviation-rectifying structure, and a detection structure intelligently performs closed-loop deviation rectifying;

(3) The system aims at multi-roll winding, and can adjust the position of the deviation rectifying component through the servo control deviation rectifying position adjusting component, so that the system is suitable for different widths.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following descriptions are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of a deviation correcting system for a multi-material roll;

FIG. 2 is a schematic structural view of the deviation correcting position adjusting assembly of the present invention;

fig. 3 is a schematic structural diagram of the first deviation rectifying assembly of the present invention;

fig. 4 is a schematic structural diagram of the second deviation rectifying assembly of the present invention;

fig. 5 is the structure diagram of the deviation rectifying and detecting mechanism of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to explain the technical solution of the present invention, the following description is made by using specific examples.

Examples

Referring to fig. 1, the present embodiment provides a deviation rectifying system for winding a multi-material roll, which comprises a deviation rectifying mechanism 1, a deviation rectifying position adjusting assembly 2 and a deviation rectifying detection mechanism 3. The deviation rectifying mechanism 1 comprises a first deviation rectifying assembly 11, a second deviation rectifying assembly 12 and a first sliding seat 13, the first sliding seat 13 is movably arranged on the deviation rectifying position adjusting assembly 2, the first deviation rectifying assembly 11 and the second deviation rectifying assembly 12 are oppositely arranged on the first sliding seat 13 along a pole piece transmission path in the left-right direction, and the deviation rectifying position adjusting assembly 2 can drive the first deviation rectifying assembly 11 and the second deviation rectifying assembly 12 to move left and right for adjustment; the deviation rectifying detection mechanism 3 is located on one side of the pole piece output ends of the first deviation rectifying assembly 11 and the second deviation rectifying assembly 12 and used for deviation rectifying detection.

As shown in fig. 2, the deviation correcting position adjusting assembly 2 includes a first supporting frame 21, and a third motor 22, a third screw 23 and a second guide rail 24 which are arranged on the first supporting frame 21, the first sliding seat 13 is movably arranged on the second guide rail 24, and the third motor 22 is connected with the first sliding seat 13 through the third screw 23. The structure principle is as follows: the third motor 22 drives the first sliding seat 13 to move along the second guide rail 24 through the third screw 23, so as to drive the first deviation rectifying component 11 and the second deviation rectifying component 12 to move left and right, thereby achieving the purpose of adjusting the deviation rectifying components.

As shown in fig. 3, the first deviation rectifying assembly 11 includes a first deviation rectifying roller 111, a second deviation rectifying roller 112, a second supporting frame 113 and a first deviation rectifying motor 114, the first deviation rectifying roller 111 and the second deviation rectifying roller 112 are arranged on the second supporting frame 113 in front and back along the pole piece transmission path, and the second supporting frame 113 is arranged on the first sliding seat 13 through the first deviation rectifying motor 114. The structure principle is as follows: the first deviation rectifying motor 114 rotates the first deviation rectifying roller 111 and the second deviation rectifying roller 112 to swing obliquely, so as to achieve the purpose of rectifying the pole piece path.

As shown in fig. 4, the second deviation rectifying assembly 12 includes a third deviation rectifying roller 121, a fourth deviation rectifying roller 122, a third supporting frame 123 and a second deviation rectifying motor 124, the third deviation rectifying roller 121 and the fourth deviation rectifying roller 122 are arranged on the third supporting frame 123 in a front-back manner along the pole piece transmission path, and the third supporting frame 123 is arranged on the first sliding seat 13 through the second deviation rectifying motor 124. The structure principle is as follows: the third deviation-rectifying roller 121 and the fourth deviation-rectifying roller 122 are rotated by the second deviation-rectifying motor 124 to obliquely swing, so that the purpose of rectifying the pole piece path is achieved.

As shown in fig. 5, the deviation-correcting detection mechanism 3 includes a first guide rail 31, a first motor 32, a second motor 33, a first lead screw, a second lead screw, a first deviation-correcting detection assembly 34 and a second deviation-correcting detection assembly 35, the first deviation-correcting detection assembly 34 and the second deviation-correcting detection assembly 35 are movably disposed on the first guide rail 31 left and right and correspond to the first deviation-correcting assembly 11 and the second deviation-correcting assembly 12, one end of the first motor 32 located on the first guide rail 31 is connected to the first deviation-correcting detection assembly 34 through the first lead screw, and the other end of the second motor 33 located on the first guide rail 31 is connected to the second deviation-correcting detection assembly 35 through the second lead screw. The structure principle is as follows: the first motor 32 rotates the first lead screw, and the second motor 33 rotates the second lead screw, so as to respectively drive the first deviation-rectifying detection assembly 34 and the second deviation-rectifying detection assembly 35 on the first guide rail 31 to move, thereby achieving the purpose of adjusting the position of the inductor and adapting to the deviation-rectifying positioning of different pole piece widths.

The first deviation rectification detection assembly 34 includes a second sliding seat 340, a first sensor 341, a second sensor 342, and a first sensor adjustment structure, the second sliding seat 340 is movably disposed on the first guide rail 31, the first sensor adjustment structure is disposed on the second sliding seat 340, the first sensor adjustment structure includes a third guide rail 343, a third support frame 344, a first adjustment rod 345, a first adjustment block 346, and a second adjustment block 347, the first sensor 341 and the second sensor 342 are respectively movably disposed on the third guide rail 343 in a left-right direction through a first sensor support 348 and a second sensor support 349, the third support frame 344 is disposed on one side of the third guide rail 343, the first adjustment rod 345 is disposed on the third support frame 344, the first adjustment block 346 and the second adjustment block 347 are movably disposed on the first adjustment rod 345, the first adjustment block 346 is connected to the first sensor support 348, the second adjustment block 347 is connected to the second sensor support 349, and the first sensor 341 and the second sensor adjustment structure 342 can adjust the position in a left-right direction.

The second deviation-rectifying detection assembly 35 includes a third sliding seat 350, a third sensor 351, a fourth sensor 352 and a second sensor adjusting structure, the third sliding seat 350 is movably disposed on the first guide rail 31, the second sensor adjusting structure is disposed on the third sliding seat 350, the second sensor adjusting structure includes a fourth guide rail 353, a fourth supporting frame 354, a second adjusting rod 355, a third adjusting block 356 and a fourth adjusting block 357, the third sensor 351 and the fourth sensor 352 are respectively disposed on the fourth guide rail 353 through a third sensor support 358 and a fourth sensor support 359 in a left-right relative movement manner, the fourth supporting frame 354 is disposed on one side of the fourth guide rail 353, the second adjusting rod 355 is disposed on the fourth supporting frame 354, the second adjusting rod 355 is movably disposed with a third adjusting block 356 and a fourth adjusting block 357, the third adjusting block 356 is connected with the third sensor support 358, the fourth adjusting block 357 is connected with the fourth sensor support 358, and the third sensor 351 and the fourth sensor adjusting structure can adjust the position through a left-right sensing adjustment.

The working principle is as follows: the pole piece falls into many, through first deviation correcting assembly 11 and second deviation correcting assembly 12, use first deviation correcting detection component 34 and second deviation correcting detection component 35 as the basis rolling of rectifying a deviation, guarantee the alignment degree of rolling, when unreeling the pole piece width and change, confirm the scope of rectifying a deviation through first deviation correcting detection component 34 and second deviation correcting detection component 35, rethread deviation correcting position adjustment assembly 2 automatically regulated first deviation correcting assembly 11 and second deviation correcting assembly 12 to suitable position, first deviation correcting assembly 11 and second deviation correcting assembly 12 are through the inductor location feedback of first deviation correcting detection component 34 and second deviation correcting detection component 35, thereby the swing is rectified and is reached the purpose that the pole piece route was corrected through the roller, realize accurate position and rectify a deviation.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (8)

1. The utility model provides a deviation correcting system is rolled up to many furls which characterized in that: the system comprises a deviation rectifying mechanism, a deviation rectifying position adjusting assembly and a deviation rectifying detection mechanism, wherein the deviation rectifying mechanism comprises a first deviation rectifying assembly, a second deviation rectifying assembly and a first sliding seat, the first sliding seat is movably arranged on the deviation rectifying position adjusting assembly, the first deviation rectifying assembly and the second deviation rectifying assembly are oppositely arranged on the first sliding seat along the left and right sides of a pole piece transmission path, the deviation rectifying detection mechanism is positioned on one side of the pole piece output ends of the first deviation rectifying assembly and the second deviation rectifying assembly, the deviation rectifying detection mechanism comprises a first guide rail, a first motor, a second motor, a first lead screw, a second lead screw, a first deviation rectifying detection assembly and a second deviation rectifying detection assembly, the first deviation rectifying detection assembly and the second deviation rectifying detection assembly are movably arranged on the first guide rail in a left and right mode and respectively correspond to the first deviation rectifying assembly and the second deviation rectifying assembly, one end of the first motor, which is positioned on the first guide rail, is connected with the first deviation rectifying detection assembly through the first lead screw, and the other end of the second motor, which is positioned on the first guide rail, is connected with the second deviation rectifying detection assembly through the second lead screw.

2. The system according to claim 1, wherein the deviation correcting system comprises: the deviation correcting position adjusting assembly comprises a first support frame, a third motor, a third screw rod and a second guide rail, wherein the third motor, the third screw rod and the second guide rail are arranged on the first support frame, the first sliding seat is movably arranged on the second guide rail, and the third motor is connected with the first sliding seat through the third screw rod.

3. The system according to claim 1, wherein the deviation correcting system comprises: the first deviation rectifying assembly comprises a first deviation rectifying roller, a second supporting frame and a first deviation rectifying motor, the first deviation rectifying roller and the second deviation rectifying roller are arranged on the second supporting frame along the front and the back of a pole piece transmission path, and the second supporting frame is arranged on the first sliding seat through the first deviation rectifying motor.

4. The system according to claim 1, wherein the deviation correcting system comprises: the second deviation rectifying assembly comprises a third deviation rectifying roller, a fourth deviation rectifying roller, a third supporting frame and a second deviation rectifying motor, the third deviation rectifying roller and the fourth deviation rectifying roller are arranged on the third supporting frame in the front and at the back along a pole piece transmission path, and the third supporting frame is arranged on the first sliding seat through the second deviation rectifying motor.

5. The system according to claim 1, wherein the deviation rectification system comprises: the first deviation rectification detection assembly comprises a second sliding seat, a first inductor and a second inductor, the second sliding seat is movably arranged on the first guide rail, and the first inductor and the second inductor are oppositely arranged on the second sliding seat in the left-right direction.

6. The system according to claim 5, wherein the deviation rectification system comprises: the first deviation rectifying detection assembly further comprises a first inductor adjusting structure arranged on the second sliding seat, the first inductor adjusting structure comprises a third guide rail, a third support frame, a first adjusting rod, a first adjusting block and a second adjusting block, the first inductor and the second inductor are respectively movably arranged on the third guide rail in a left-right mode through a first inductor support and a second inductor support, the third support frame is located on one side of the third guide rail, the first adjusting rod is arranged on the third support frame, the first adjusting block and the second adjusting block are movably arranged on the first adjusting rod, the first adjusting block is connected with the first inductor support, and the second adjusting block is connected with the second inductor support.

7. The system according to claim 1, wherein the deviation correcting system comprises: the second deviation rectifying detection assembly comprises a third sliding seat, a third inductor and a fourth inductor, the third sliding seat is movably arranged on the first guide rail, and the third inductor and the fourth inductor are oppositely arranged on the third sliding seat in the left-right direction.

8. The system according to claim 7, wherein the deviation rectification system comprises: the second deviation rectification detection assembly further comprises a second inductor adjusting structure arranged on a third sliding seat, the second inductor adjusting structure comprises a fourth guide rail, a fourth support frame, a second adjusting rod, a third adjusting block and a fourth adjusting block, the third inductor and the fourth inductor are respectively movably arranged on the fourth guide rail in a left-right mode through a third inductor support and a fourth inductor support, the fourth support frame is located on one side of the fourth guide rail, the second adjusting rod is arranged on the fourth support frame, the third adjusting block and the fourth adjusting block are movably arranged on the second adjusting rod, the third adjusting block is connected with the third inductor support, and the fourth adjusting block is connected with the fourth inductor support.

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